EP1002384A1 - Device for transferring optical signals with replacement circuit function - Google Patents

Abstract

The invention concerns a device for transferring optical signals, comprising a transmission channel mounted between at least one transmitter and at least one receiver, said transmission channel including a main transmission line and a replacement transmission line which, in case the main transmission line breaks down, automatically takes over the transmission of the optical signals, and said optical signals being simultaneously injected into the main transmission line and the replacement transmission line. The invention is characterised in that the main transmission line (16) and the replacement transmission line (18) are so designed that an injected optical signal, when it is transmitted through the main transmission line (16) reaches the receiver at a definitely higher level than when it is transmitted through the replacement transmission line (18), a take-over of the optical signal at receiver level (14) being controlled by an automatic level-adjusting device (28) of the receiver (14).

Description

Arrangement for the transmission of optical signals with equivalent circuit effect

The invention relates to an arrangement for transmitting optical signals in an optical network with a transmission path connected between at least one transmitter and at least one receiver.

State of the art

Arrangements of the generic type are known. Thus, optical networks consisting of optical waveguides are permanently installed for the transmission of optical signals and are coupled at their end points to at least one receiver and at least one transmitter. In order to ensure transmission of the optical signals even in the event that a main transmission line of the optical network is interrupted, it is known that parallel transmission lines or alternative transmission lines are routed on alternative routes. These automatically take over the transmission of the optical signals if the main transmission line is mechanically damaged, for example due to earthworks. In order to switch from the main transmission line to the replacement transmission line For example, the optical signals are simultaneously fed into both the main transmission lines and the spare transmission lines. In order to prevent the optical signals fed into the main transmission line and the replacement transmission line from overlapping, a switchover arrangement is to be provided on the receiving side, which is controlled by a signal detection device. If the signal detection device detects that the transmission of optical signals is interrupted via the main transmission line, a command is sent to the switchover arrangement, which then switches over the transmission to the replacement transmission line. It is disadvantageous here that the signal detection and switching arrangements can only be implemented with a relatively high outlay, and the switching, at least temporarily, results in interference in the transmission of the optical signals.

Advantages of the invention

The arrangement according to the invention with the features mentioned in claim 1 offers the advantage that switching between the main transmission line and the replacement transmission line is possible in a simple manner without an additional signal detection device and switching arrangement. Because the main transmission line and the replacement transmission line are designed in such a way that a reception level of the optical signals supplied by the main transmission line is definedly higher than one The reception level of the optical signals supplied by the replacement transmission line can be detected by an automatic level control which is already integrated in the receiver for other reasons, and the failure of reception via the main transmission line can be recognized and automatically switched to receiving the optical signals via the replacement transmission line. Because there is a defined level difference between the reception levels of the main transmission line and the replacement transmission line, the optical signals of both paths reach the receiver with different levels when the main transmission lines are intact, but only the optical signal of this path is evaluated by the higher level via the main transmission line . Only when the optical signals with the high reception level fail does the automatic level control detect the identical optical signals with the low level, so that the transmission of the optical signals is not interrupted.

The switchover is thus very advantageously carried out without additional measures and devices solely through the defined different levels of both paths in cooperation with the automatic level control of the receiver.

In an embodiment of the invention, it is provided that the defined level difference of the optical signals in the main transmission line and the replacement transmission line is by a route of the replacement transmission line in a detour between the transmitter and the receiver by itself, since then the replacement transmission line has a defined higher attenuation for the optical signals.

In a further embodiment of the invention, it is provided that the optical signals are transmitted via the main transmission line and the replacement transmission line with a defined different attenuation. Here, for example, a defined level difference between the optical signals in the main transmission line and the replacement transmission line can be achieved in a simple manner by means of a passive optical element, which is in any case present for the division of the optical signal between the main transmission line and the replacement transmission line, or by an additional attenuator respectively.

Further advantageous embodiments of the invention result from the other features mentioned in the subclaims.

drawing

The invention is explained in more detail below in an exemplary embodiment with reference to the associated drawing, which schematically shows a block diagram of the arrangement according to the invention. Description of the embodiment

In the figure, an optical transmission link 10 for transmitting optical signals from a transmitter 12 to a receiver 14 is shown as part of an optical network. For reasons of clarity, only one transmitter 12 and only one receiver 14 are shown. It is of course possible to use the arrangement according to the invention also in optical networks which have a multiplicity of transmitters 12 and receivers 14, the transmitters 12 and the receivers 14 each being able to be arranged at two ends of the optical network.

The optical transmission link 10 comprises a main transmission line 16 and a replacement transmission line 18. The main transmission line 16 and the replacement transmission line 18 are each formed by optical fibers, for example glass fibers, by means of which optical signals can be transmitted.

The transmitter 12 is connected to the main transmission line 16 and the alternative transmission line 18 via a coupler 20. The coupler 20 is designed, for example, as a symmetrical coupler that has a nominal attenuation of 3 dB per output. As a result, the optical signals sent by the transmitter 12 are fed into the main transmission line 16 and the equivalent transmission line 18 with the same amplitude. At the receiver end, the main transmission line 16 and the replacement transmission line 18 are connected to a further coupler 22, the output of which is connected to the receiver 14. The coupler 22 also has, for example, a nominal attenuation of 3 dB per input. The transmission of the optical signals between the transmitter 12 and the receiver 14 thus takes place exclusively via passive optical components.

Although the transmitter 12 simultaneously feeds the optical signals at the same level into the main transmission line 16 and the replacement transmission line 18, the transmission link 10 is operated such that the optical signals received by the receiver 14 via the main transmission line 16 are received with a defined higher reception level than the optical signals received via the replacement transmission line 18. This can be achieved, for example, by interposing a level adjuster 24 or 26 as shown in dashed lines in the main transmission line 16 and the replacement transmission line 18. The level of the optical signal is influenced by the level adjusters 24 and 26 in such a way that there is a defined level difference between the optical signals received simultaneously by the receiver 14 via the coupler 22 via the main transmission line 16 and the replacement transmission line 18. The level difference to be set must be at least as large as the signal-to-noise ratio required by the optical signal to be transmitted. The level- The difference is, for example, 15 dB, which is generally sufficient as a signal-to-noise ratio in the known digital transmission of optical signals.

The receiver 14 has an automatic level control 28, which automatically adjusts the reception to the optical signal with the higher level. In the normal case, the optical signal sent by the transmitter 12 is thus received via the main transmission line 16, since this delivers a defined higher reception level than the optical signal sent via the substitute transmission line 18. If the main transmission line 16 is interrupted, for example mechanically by civil engineering work, the optical signal at the receiver 14 is no longer present with the defined higher reception level over the main transmission path, but with the lower reception level over the replacement transmission line 18. The automatic. Level control 28 thus receives the same optical signal without interruption, only with a low reception level. The level of the optical signal sent via the replacement transmission line 18 is correspondingly amplified via the control circuit integrated in the receiver and further processed in the receiver 14. The dynamic range of the receiver 18 is designed such that, based on the gain setting at a normal reception level of the optical signal via the main transmission line 16, there is an amplification reserve which is at least as large as the level difference between the reception levels of the optical signals via the Main transmission line 16 and the Substitute transmission line 18. This ensures that the optical signal sent with the low reception level is received via the substitute transmission line 18 in the event of an interruption in the main transmission line immediately, that is, without significant interference and without further switchovers from the receiver 14. In this case, the takeover is automatically carried out automatically, so that the receiver 14 has no knowledge of the interruption of the main transmission line 16.

Instead of the level adjuster 24 and 26, it can be provided to design the coupler 20 and / or the coupler 22 asymmetrically, that is to say the attenuation of the optical signals from the transmitter 12 to the main transmission line 16 on the one hand and the attenuation of the optical signals from the transmitter 12 on the other hand is set differently on the receiver 14. In this way, a defined level difference in the reception level of the optical signals is achieved, so that the already explained further reception of the optical signals can take place via the substitute transmission line 18 when the main transmission line 16 is interrupted.

It is also possible to switch an amplifier into the main transmission line 16 instead of the level adjusters 24 and 26 in order to achieve a corresponding level increase for setting the defined level difference between the optical signals transmitted via the main transmission line 16 and the replacement transmission line 18. The same The effect is achieved if an attenuator is installed in the replacement transmission line 18, which causes a defined level reduction in the optical signal sent via the replacement transmission line 18.

In many cases it is possible to arrange the replacement transmission line 18 in such a way that the optical signal is attenuated in accordance with the longer path length over a correspondingly longer path length of the replacement line compared to the path length of the main transmission line 16. This results in a level difference between the reception levels of the optical signals of the main transmission line 16 and the replacement transmission line 18.

Corresponding to the automatic acceptance of the reception of the optical signals via the substitute transmission line 18 when the main transmission line 16 is interrupted without switching arrangements or signal detection devices, when the connection is restored via the main transmission line 16, the reception of the optical signals is immediately resumed, since the automatic level control 28 automatically restores the optical signal Signal with the higher reception level is evaluated.

Claims

claims

1. Arrangement for the transmission of optical signals with a transmission path connected between at least one transmitter and at least one receiver in an optical network, the transmission path comprising a main transmission line and a replacement transmission line automatically taking over the transmission of the optical signals if the main transmission line fails, and the optical transmission line Signals are fed simultaneously into the main transmission line and the substitute transmission line, characterized in that the main transmission line (16) and the substitute transmission line (18) are designed such that an optical signal fed in by a transmitter (12) during transmission via the main transmission line (16 ) compared to transmission via the replacement transmission line (18) has a defined higher reception level at the receiver (14), with an automatic transfer of the optical signal at the receiver (14) rule level control (28) of the receiver (14) is controlled.

2. Arrangement according to one of the preceding claims, characterized in that a dynamic range of the receiver (14) has a gain reserve which corresponds at least to the level difference.

3. Arrangement according to claim 1, characterized in that the replacement transmission line (18) has a higher attenuation than the main transmission line

(16).

4. Arrangement according to one of the preceding claims, characterized in that the replacement transmission line (18) compared to the main transmission line (16) has a defined longer path length.

5. Arrangement according to claim 3, characterized in that the higher attenuation of the replacement transmission line (18) by an asymmetrical design of at least one of the main transmission line (16) and the replacement transmission line (18) separating or merging coupler (20) and / or coupler (22) is adjustable.

6. Arrangement according to one of the preceding claims, characterized in that in the main transmission line (16) a level controller (24) and / or in the replacement transmission line (18) a level controller (26) is connected, via which the defined level difference of the optical signals can be set is.

7. Arrangement according to one of the preceding claims, characterized in that the main transmission line (16) comprises an amplifier for increasing the reception level.

8. Arrangement according to one of the preceding claims, characterized in that the replacement transmission line (18) comprises an attenuator for lowering the reception level.

9. Arrangement according to one of the preceding claims, characterized in that the level difference corresponds to at least one signal-to-noise ratio required by the optical signal to be transmitted.

10. Arrangement according to one of the preceding claims, characterized in that the level difference

Is 15 dB.